The production of reactive oxygen species (ROS) in plants is a common event in metabolic and physiological processes as well as in the response to biotic and abiotic stress. In this paper we will report that root tissue from axenically grown tomato cultivars and Lycopersicon wild species can be used for the determination of superoxide production. Superoxide generation was evaluated following the treatment of root tissues with two general elicitors of the defence response: laminarin and calcium ionophore A23187. Results demonstrated that elicitor reactivity in terms of superoxide generation of the tomato cultivars and the wild species used was different. This suggested varying levels of competence for non-specific active defence. The proposed
technique merges the advantages of in vitro cultures and of whole tissues and also demonstrates that root tissue is a suitable material for evaluating free radical release.

The production of reactive oxygen species (ROS) in plants is a common event in metabolic and physiological processes as well as in the response to biotic and abiotic stress. In this paper we will report that root tissue from axenically grown tomato cultivars and Lycopersicon wild species can be used for the determination of superoxide production. Superoxide generation was evaluated following the treatment of root tissues with two general elicitors of the defence response: laminarin and calcium ionophore A23187. Results demonstrated that elicitor reactivity in terms of superoxide generation of the tomato cultivars and the wild species used was different. This suggested varying levels of competence for non-specific active defence. The proposed
technique merges the advantages of in vitro cultures and of whole tissues and also demonstrates that root tissue is a suitable material for evaluating free radical release.